新型酸基交联凝胶在碳酸盐地层高温高压酸压裂中的应用评价与介绍

Khalid Fahad Almulhem, Ataur R. Malik, Mustafa Ghazwi
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引用次数: 2

摘要

酸化压裂是目前碳酸盐岩储层增产最有效的增产技术之一。传统的碳酸盐岩储层增产方法是在压裂速率下泵入交联凝胶和酸混合物,如28%的普通HCL、乳化酸(EA)和原位胶凝酸,以最大限度地提高增产储层的体积和所需的导流能力。由于碳酸盐岩地层压裂面临的常见挑战,包括高泄漏和快速酸反应速率,传统的酸压裂实践涉及复杂的泵送方案,包括垫层、酸和粘性转向剂循环,以达到裂缝长度和导流能力的目标。新一代酸基交联(ABC)流体体系在三个独立的现场试验中被应用于高温碳酸盐地层,旨在提供破岩粘度、酸阻和有效的泄漏控制。ABC流体系统已逐步引入,最初是作为垫层和酸段的暂堵/泄漏控制循环开始的。后来,在水力压裂作业中,它被用作主要的酸基流体体系,以提高活酸渗透,转移和减少泄漏,并保持岩石开放。与使用酸反应副产物开始交联的原位酸基交联体系不同,ABC流体体系使用独特的交联剂/破胶剂组合,不依赖于酸反应。该体系由20%的盐酸和丙烯酰胺聚合物以及用于在未废酸中延迟交联的金属锆组成。ABC流体系统旨在通过消除复杂的泵送计划,将三种流体需求减少到一种,否则将包括:非酸压裂垫段,以破坏地层并产生目标裂缝几何形状;一种缓凝乳化酸体系,可实现深穿透、不同蚀刻的裂缝,以及一种自转向剂,可最大限度地减少流体泄漏。本文介绍了在不同的现场试验中引入这种新型酸基交联流体体系的所有努力。包括流体设计优化的细节,以说明单个系统如何取代多种流体的需求。ABC流体的配制是为了满足具有挑战性的井底地层条件,从而提高了处理后井的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Evaluation and Introduction of Novel Acid-Based Crosslinked Gel for HPHT Acid Fracturing Applications in Carbonate Formations
Acid Fracturing has been one of the most effective stimulation technique applied in the carbonate formations to enhance oil and gas production. The traditional approach to stimulate the carbonate reservoir has been to pump crosslinked gel and acid blends such as plain 28% HCL, emulsified acid (EA) and in-situ gelled acid at fracture rates in order to maximize stimulated reservoir volume with desired conductivity. With the common challenges encountered in fracturing carbonate formations, including high leak-off and fast acid reaction rates, the conventional practice of acid fracturing involves complex pumping schemes of pad, acid and viscous diverter fluid cycles to achieve fracture length and conductivity targets. A new generation of Acid-Based Crosslinked (ABC) fluid system has been deployed to stimulate high temperature carbonate formations in three separate field trials aiming to provide rock-breaking viscosity, acid retardation and effective leak-off control. The ABC fluid system has been progressively introduced, initially starting as diverter / leak off control cycles of pad and acid stages. Later it was used as main acid-based fluid system for enhancing live acid penetration, diverting and reducing leakoff as well as keeping the rock open during hydraulic fracturing operation. Unlike in-situ crosslinked acid based system that uses acid reaction by products to start crosslinking process, the ABC fluid system uses a unique crosslinker/breaker combination independent of acid reaction. The system is prepared with 20% hydrochloric acid and an acrylamide polymer along with zirconium metal for delayed crosslinking in unspent acid. The ABC fluid system is aimed to reduced three fluid requirements to one by eliminating the need for an intricate pumping schedule that otherwise would include: a non-acid fracturing pad stage to breakdown the formation and generate the targeted fracture geometry; a retarded emulsified acid system to achieve deep penetrating, differently etched fractures, and a self-diverting agent to minimize fluid leak-off. This paper describes all efforts behind the introduction of this novel Acid-Based Crossliked fluid system in different field trials. Details of the fluid design optimization are included to illustrate how a single system can replace the need for multiple fluids. The ABC fluid was formulated to meet challenging bottom-hole formation conditions that resulted in encouraging post treatment well performance.
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